POWER HAL

group nrf_power_hal

Hardware access layer for managing the POWER peripheral.

Defines

NRF_POWER_HAS_CONST_LATENCY: Symbol indicating whether Constant Latency mode is present.

NRF_POWER_HAS_LOW_POWER: Symbol indicating whether Low-Power mode is present.

NRF_POWER_HAS_SLEEPEVT: Symbol indicating whether sleep events are present.

NRF_POWER_HAS_USBREG: Symbol indicating whether the POWER peripheral controls the USB regulator.

NRF_POWER_HAS_DCDCEN_VDDH: Symbol indicating whether DCDCEN for REG0 is present.

NRF_POWER_HAS_DCDCEN: Symbol indicating whether DCDCEN for REG1 is present.

NRF_POWER_HAS_POFWARN: Symbol indicating whether power failure event is present.

NRF_POWER_HAS_POFCON: Symbol indicating whether power failure comparator is present.

NRF_POWER_HAS_POFCON_VDDH: Symbol indicating whether power failure comparator for VDDH is present.

NRF_POWER_HAS_RESETREAS: Symbol indicating whether RESETREAS register is present in POWER.

NRF_POWER_HAS_RESETREAS_CTRLAP: Symbol indicating whether RESETREAS CTRLAP is present.

NRF_POWER_HAS_RESETREAS_LPCOMP: Symbol indicating whether RESETREAS LPCOMP is present.

NRF_POWER_HAS_RESETREAS_NFC: Symbol indicating whether RESETREAS NFC is present.

NRF_POWER_HAS_RESETREAS_VBUS: Symbol indicating whether RESETREAS VBUS is present.

NRF_POWER_HAS_MAINREGSTATUS: Symbol indicating whether MAINREGSTATUS register is present.

NRF_POWER_HAS_GPREGRET: Symbol indicating whether GPREGRET register is present.

NRF_POWER_HAS_GPREGRET_ARRAY: Symbol indicating whether GPREGRET register is treated as an array.

NRFX_POWER_GPREGRET_COUNT: Size of GPREGRET register when defined as array.

NRF_POWER_HAS_SEMAPHORE: Symbol indicating whether semaphore for regulator voltage scaling procedure is present.

NRF_POWER_HAS_VREG_UPDATE_TASK_EVENT: Symbol indicating whether task and event responsible for updating voltage regulators configuration are present.

NRF_POWER_HAS_VREG_CONFIG: Symbol indicating whether voltage regulators are configurable.

NRF_POWER_HAS_ABB: Symbol indicating whether the Adaptive Body Biasing (ABB) domains are present.

NRF_POWER_HAS_BLOCK_MODES: Symbol indicating whether the power block modes are present.

NRF_POWER_HAS_BILS: Symbol indicating whether the Built-in Leakage Sensors (BILS) are present.

NRF_POWER_HAS_PMIC: Symbol indicating whether the Power Management IC (PMIC) is present.

NRF_POWER_EVENTS_ABB_LOCK_COUNT: Symbol specifying the maximum number of available ABB_LOCK events.

Enums

enum nrf_power_task_t

POWER tasks.

Values:

enumerator NRF_POWER_TASK_CONSTLAT: Enable constant latency mode.

enumerator NRF_POWER_TASK_LOWPWR: Enable low-power mode (variable latency).

enumerator NRF_POWER_TASK_SEMAPHORE_ACQUIRE: Acquire the semaphore for regulator voltage scaling procedure.

enumerator NRF_POWER_TASK_SEMAPHORE_RELEASE: Release the semaphore for regulator voltage scaling procedure.

enumerator NRF_POWER_TASK_REGULATOR_UPDATE: Update the regulator configuration.

enum nrf_power_event_t

POWER events.

Values:

enumerator NRF_POWER_EVENT_POFWARN: Power failure warning.

enumerator NRF_POWER_EVENT_SLEEPENTER: CPU entered WFI/WFE sleep mode.

enumerator NRF_POWER_EVENT_SLEEPEXIT: CPU exited WFI/WFE sleep mode.

enumerator NRF_POWER_EVENT_USBDETECTED: Voltage supply detected on VBUS.

enumerator NRF_POWER_EVENT_USBREMOVED: Voltage supply removed from VBUS.

enumerator NRF_POWER_EVENT_USBPWRRDY: USB 3.3 V supply ready.

enumerator NRF_POWER_EVENT_SEMAPHORE_ACQUIRED: Acquired the semaphore for regulator voltage scaling procedure.

enumerator NRF_POWER_EVENT_SEMAPHORE_RELEASED: Released the semaphore for regulator voltage scaling procedure.

enumerator NRF_POWER_EVENT_REGULATOR_UPDATED: Updated the regulator configuration.

enumerator NRF_POWER_EVENT_ABB_LOCK_0: ABB lock for the ABB domain 0.

enumerator NRF_POWER_EVENT_ABB_LOCK_1: ABB lock for the ABB domain 1.

enum nrf_power_int_mask_t

POWER interrupts.

Values:

enumerator NRF_POWER_INT_POFWARN_MASK: Write ‘1’ to enable interrupt for POFWARN event.

enumerator NRF_POWER_INT_SLEEPENTER_MASK: Write ‘1’ to enable interrupt for SLEEPENTER event.

enumerator NRF_POWER_INT_SLEEPEXIT_MASK: Write ‘1’ to enable interrupt for SLEEPEXIT event.

enumerator NRF_POWER_INT_USBDETECTED_MASK: Write ‘1’ to enable interrupt for USBDETECTED event.

enumerator NRF_POWER_INT_USBREMOVED_MASK: Write ‘1’ to enable interrupt for USBREMOVED event.

enumerator NRF_POWER_INT_USBPWRRDY_MASK: Write ‘1’ to enable interrupt for USBPWRRDY event.

enumerator NRF_POWER_INT_SEMAPHORE_ACQUIRED: Write ‘1’ to enable interrupt for SEMAPHORE_ACQUIRED event.

enumerator NRF_POWER_INT_SEMAPHORE_RELEASED: Write ‘1’ to enable interrupt for SEMAPHORE_RELEASED event.

enumerator NRF_POWER_INT_REGULATOR_UPDATED: Write ‘1’ to enable interrupt for REGULATOR_UPDATED event.

enumerator NRF_POWER_INT_ABB_LOCK_0: Write ‘1’ to enable interrupt for ABB_LOCK_0 event.

enumerator NRF_POWER_INT_ABB_LOCK_1: Write ‘1’ to enable interrupt for ABB_LOCK_1 event.

enum nrf_power_resetreas_mask_t

Reset reason.

Values:

enumerator NRF_POWER_RESETREAS_RESETPIN_MASK: Bit mask of RESETPIN field.

enumerator NRF_POWER_RESETREAS_DOG_MASK: Bit mask of DOG field.

enumerator NRF_POWER_RESETREAS_SREQ_MASK: Bit mask of SREQ field.

enumerator NRF_POWER_RESETREAS_LOCKUP_MASK: Bit mask of LOCKUP field.

enumerator NRF_POWER_RESETREAS_OFF_MASK: Bit mask of OFF field.

enumerator NRF_POWER_RESETREAS_LPCOMP_MASK: Bit mask of LPCOMP field.

enumerator NRF_POWER_RESETREAS_DIF_MASK: Bit mask of DIF field.

enumerator NRF_POWER_RESETREAS_NFC_MASK: Bit mask of NFC field.

enumerator NRF_POWER_RESETREAS_VBUS_MASK: Bit mask of VBUS field.

enumerator NRF_POWER_RESETREAS_CTRLAP_MASK: Bit mask of CTRLAP field.

enum nrf_power_usbregstatus_mask_t

USBREGSTATUS register bit masks.

See also

nrf_power_usbregstatus_get

Values:

enumerator NRF_POWER_USBREGSTATUS_VBUSDETECT_MASK: USB detected or removed.

enumerator NRF_POWER_USBREGSTATUS_OUTPUTRDY_MASK: USB 3.3 V supply ready.

enum nrf_power_ramblock_t

Numbers of RAM blocks.

See also

nrf_power_ramblock_mask_t

Note

RAM blocks must be used in nRF51. In newer SoCs, RAM is divided into segments and this functionality is not supported. See the PS for mapping between the internal RAM and RAM blocks, because this mapping is not 1:1, and functions related to old style blocks must not be used.

Values:

enumerator NRF_POWER_RAMBLOCK0

enumerator NRF_POWER_RAMBLOCK1

enumerator NRF_POWER_RAMBLOCK2

enumerator NRF_POWER_RAMBLOCK3

enum nrf_power_ramblock_mask_t

Masks of RAM blocks.

See also

nrf_power_ramblock_t

Values:

enumerator NRF_POWER_RAMBLOCK0_MASK

enumerator NRF_POWER_RAMBLOCK1_MASK

enumerator NRF_POWER_RAMBLOCK2_MASK

enumerator NRF_POWER_RAMBLOCK3_MASK

enum nrf_power_onoffram_t

RAM power state position of the bits.

See also

nrf_power_onoffram_mask_t

Values:

enumerator NRF_POWER_ONRAM0: Keep RAM block 0 ON or OFF in System ON mode.

enumerator NRF_POWER_OFFRAM0: Keep retention on RAM block 0 when RAM block is switched OFF.

enumerator NRF_POWER_ONRAM1: Keep RAM block 1 ON or OFF in System ON mode.

enumerator NRF_POWER_OFFRAM1: Keep retention on RAM block 1 when RAM block is switched OFF.

enumerator NRF_POWER_ONRAM2: Keep RAM block 2 ON or OFF in System ON mode.

enumerator NRF_POWER_OFFRAM2: Keep retention on RAM block 2 when RAM block is switched OFF.

enumerator NRF_POWER_ONRAM3: Keep RAM block 3 ON or OFF in System ON mode.

enumerator NRF_POWER_OFFRAM3: Keep retention on RAM block 3 when RAM block is switched OFF.

enum nrf_power_onoffram_mask_t

RAM power state bit masks.

See also

nrf_power_onoffram_t

Values:

enumerator NRF_POWER_ONRAM0_MASK: Keep RAM block 0 ON or OFF in System ON mode.

enumerator NRF_POWER_OFFRAM0_MASK: Keep retention on RAM block 0 when RAM block is switched OFF.

enumerator NRF_POWER_ONRAM1_MASK: Keep RAM block 1 ON or OFF in System ON mode.

enumerator NRF_POWER_OFFRAM1_MASK: Keep retention on RAM block 1 when RAM block is switched OFF.

enumerator NRF_POWER_ONRAM2_MASK: Keep RAM block 2 ON or OFF in System ON mode.

enumerator NRF_POWER_OFFRAM2_MASK: Keep retention on RAM block 2 when RAM block is switched OFF.

enumerator NRF_POWER_ONRAM3_MASK: Keep RAM block 3 ON or OFF in System ON mode.

enumerator NRF_POWER_OFFRAM3_MASK: Keep retention on RAM block 3 when RAM block is switched OFF.

enum nrf_power_pof_thr_t

Power failure comparator thresholds.

Values:

enumerator NRF_POWER_POFTHR_V21: Set threshold to 2.1 V.

enumerator NRF_POWER_POFTHR_V23: Set threshold to 2.3 V.

enumerator NRF_POWER_POFTHR_V25: Set threshold to 2.5 V.

enumerator NRF_POWER_POFTHR_V27: Set threshold to 2.7 V.

enumerator NRF_POWER_POFTHR_V17: Set threshold to 1.7 V.

enumerator NRF_POWER_POFTHR_V18: Set threshold to 1.8 V.

enumerator NRF_POWER_POFTHR_V19: Set threshold to 1.9 V.

enumerator NRF_POWER_POFTHR_V20: Set threshold to 2.0 V.

enumerator NRF_POWER_POFTHR_V22: Set threshold to 2.2 V.

enumerator NRF_POWER_POFTHR_V24: Set threshold to 2.4 V.

enumerator NRF_POWER_POFTHR_V26: Set threshold to 2.6 V.

enumerator NRF_POWER_POFTHR_V28: Set threshold to 2.8 V.

enum nrf_power_pof_thrvddh_t

Power failure comparator thresholds for VDDH.

Values:

enumerator NRF_POWER_POFTHRVDDH_V27: Set threshold to 2.7 V.

enumerator NRF_POWER_POFTHRVDDH_V28: Set threshold to 2.8 V.

enumerator NRF_POWER_POFTHRVDDH_V29: Set threshold to 2.9 V.

enumerator NRF_POWER_POFTHRVDDH_V30: Set threshold to 3.0 V.

enumerator NRF_POWER_POFTHRVDDH_V31: Set threshold to 3.1 V.

enumerator NRF_POWER_POFTHRVDDH_V32: Set threshold to 3.2 V.

enumerator NRF_POWER_POFTHRVDDH_V33: Set threshold to 3.3 V.

enumerator NRF_POWER_POFTHRVDDH_V34: Set threshold to 3.4 V.

enumerator NRF_POWER_POFTHRVDDH_V35: Set threshold to 3.5 V.

enumerator NRF_POWER_POFTHRVDDH_V36: Set threshold to 3.6 V.

enumerator NRF_POWER_POFTHRVDDH_V37: Set threshold to 3.7 V.

enumerator NRF_POWER_POFTHRVDDH_V38: Set threshold to 3.8 V.

enumerator NRF_POWER_POFTHRVDDH_V39: Set threshold to 3.9 V.

enumerator NRF_POWER_POFTHRVDDH_V40: Set threshold to 4.0 V.

enumerator NRF_POWER_POFTHRVDDH_V41: Set threshold to 4.1 V.

enumerator NRF_POWER_POFTHRVDDH_V42: Set threshold to 4.2 V.

enum nrf_power_mainregstatus_t

Main regulator status.

Values:

enumerator NRF_POWER_MAINREGSTATUS_NORMAL: Normal voltage mode. Voltage supplied on VDD.

enumerator NRF_POWER_MAINREGSTATUS_HIGH: High voltage mode. Voltage supplied on VDDH.

enum nrf_power_rampower_t

Bit positions for RAMPOWER register.

All possible bits described, even if they are not used in selected MCU.

Values:

enumerator NRF_POWER_RAMPOWER_S0POWER: Keep RAM section S0 ON in System ON mode

enumerator NRF_POWER_RAMPOWER_S1POWER: Keep RAM section S1 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S2POWER: Keep RAM section S2 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S3POWER: Keep RAM section S3 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S4POWER: Keep RAM section S4 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S5POWER: Keep RAM section S5 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S6POWER: Keep RAM section S6 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S7POWER: Keep RAM section S7 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S8POWER: Keep RAM section S8 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S9POWER: Keep RAM section S9 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S10POWER: Keep RAM section S10 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S11POWER: Keep RAM section S11 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S12POWER: Keep RAM section S12 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S13POWER: Keep RAM section S13 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S14POWER: Keep RAM section S14 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S15POWER: Keep RAM section S15 ON in System ON mode.

enumerator NRF_POWER_RAMPOWER_S0RETENTION: Keep section retention in OFF mode when section is OFF

enumerator NRF_POWER_RAMPOWER_S1RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S2RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S3RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S4RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S5RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S6RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S7RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S8RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S9RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S10RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S11RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S12RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S13RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S14RETENTION: Keep section retention in OFF mode when section is OFF.

enumerator NRF_POWER_RAMPOWER_S15RETENTION: Keep section retention in OFF mode when section is OFF.

enum nrf_power_rampower_mask_t

Bit masks for RAMPOWER register.

All possible bits described, even if they are not used in selected MCU.

Values:

enumerator NRF_POWER_RAMPOWER_S0POWER_MASK

enumerator NRF_POWER_RAMPOWER_S1POWER_MASK

enumerator NRF_POWER_RAMPOWER_S2POWER_MASK

enumerator NRF_POWER_RAMPOWER_S3POWER_MASK

enumerator NRF_POWER_RAMPOWER_S4POWER_MASK

enumerator NRF_POWER_RAMPOWER_S5POWER_MASK

enumerator NRF_POWER_RAMPOWER_S7POWER_MASK

enumerator NRF_POWER_RAMPOWER_S8POWER_MASK

enumerator NRF_POWER_RAMPOWER_S9POWER_MASK

enumerator NRF_POWER_RAMPOWER_S10POWER_MASK

enumerator NRF_POWER_RAMPOWER_S11POWER_MASK

enumerator NRF_POWER_RAMPOWER_S12POWER_MASK

enumerator NRF_POWER_RAMPOWER_S13POWER_MASK

enumerator NRF_POWER_RAMPOWER_S14POWER_MASK

enumerator NRF_POWER_RAMPOWER_S15POWER_MASK

enumerator NRF_POWER_RAMPOWER_S0RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S1RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S2RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S3RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S4RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S5RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S7RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S8RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S9RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S10RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S11RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S12RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S13RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S14RETENTION_MASK

enumerator NRF_POWER_RAMPOWER_S15RETENTION_MASK

enum nrf_power_vreg_mask_t

POWER voltage regulators bit masks.

Values:

enumerator NRF_POWER_VREG_1V8_MASK: 1.8 V regulator.

enumerator NRF_POWER_VREG_1V0_MASK: 1.0 V regulator.

enumerator NRF_POWER_VREG_0V8_MASK: 0.8 V regulator.

enumerator NRF_POWER_VREG_VS_MASK: Voltage scaled regulator.

enumerator NRF_POWER_VREG_MAIN1V8_MASK: 1.8 V rail at VREGMAIN regulator.

enumerator NRF_POWER_VREG_MAIN1V0_MASK: 1.0 V rail at VREGMAIN regulator.

enumerator NRF_POWER_VREG_MAINVS_MASK: Voltage scaled rail at VREGMAIN regulator.

enumerator NRF_POWER_VREG_FORCE_MASK: Force the regulator enable configuration.

enum nrf_power_op_point_t

POWER operating points for ABB domain.

Values:

enumerator NRF_POWER_OP_POINT_0V4: Operating point 0.4 V.

enumerator NRF_POWER_OP_POINT_0V5: Operating point 0.5 V.

enumerator NRF_POWER_OP_POINT_0V6: Operating point 0.6 V.

enumerator NRF_POWER_OP_POINT_0V8: Operating point 0.8 V.

enum nrf_power_override_value_t

POWER operating points for ABB domain.

Values:

enumerator NRF_POWER_OVERRIDE_VALUE_POWER_DOWN: ABB analog macro powered down.

enumerator NRF_POWER_OVERRIDE_VALUE_POWER_UP: ABB analog macro powered up.

Functions

NRF_STATIC_INLINE void nrf_power_task_trigger(NRF_POWER_Type *p_reg, nrf_power_task_t task)

Function for activating a specific POWER task.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
task – [in] Task.

NRF_STATIC_INLINE uint32_t nrf_power_task_address_get(NRF_POWER_Type const *p_reg, nrf_power_task_t task)

Function for returning the address of a specific POWER task register.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
task – [in] Task.

Returns:

Task address.

NRF_STATIC_INLINE void nrf_power_event_clear(NRF_POWER_Type *p_reg, nrf_power_event_t event)

Function for clearing a specific event.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event.

NRF_STATIC_INLINE bool nrf_power_event_check(NRF_POWER_Type const *p_reg, nrf_power_event_t event)

Function for retrieving the state of the POWER event.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event to be checked.

Return values:

true – The event has been generated.
false – The event has not been generated.

NRF_STATIC_INLINE bool nrf_power_event_get_and_clear(NRF_POWER_Type *p_reg, nrf_power_event_t event)

Function for getting and clearing the state of specific event.

This function checks the state of the event and clears it.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event.

Return values:

true – The event was set.
false – The event was not set.

NRF_STATIC_INLINE uint32_t nrf_power_event_address_get(NRF_POWER_Type const *p_reg, nrf_power_event_t event)

Function for returning the address of a specific POWER event register.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event.

Returns:

Address.

NRF_STATIC_INLINE void nrf_power_int_enable(NRF_POWER_Type *p_reg, uint32_t mask)

Function for enabling selected interrupts.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] Mask of interrupts to be enabled. Use nrf_power_int_mask_t values for bit masking.

NRF_STATIC_INLINE uint32_t nrf_power_int_enable_check(NRF_POWER_Type const *p_reg, uint32_t mask)

Function for checking if the specified interrupts are enabled.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] Mask of interrupts to be checked. Use nrf_power_int_mask_t values for bit masking.

Returns:

Mask of enabled interrupts.

NRF_STATIC_INLINE uint32_t nrf_power_int_enable_get(NRF_POWER_Type const *p_reg)

Function for retrieving the information about enabled interrupts.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Returns:

The flags of enabled interrupts.

NRF_STATIC_INLINE void nrf_power_int_disable(NRF_POWER_Type *p_reg, uint32_t mask)

Function for disabling selected interrupts.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] Mask of interrupts to be disabled. Use nrf_power_int_mask_t values for bit masking.

NRF_STATIC_INLINE void nrf_power_subscribe_set(NRF_POWER_Type *p_reg, nrf_power_task_t task, uint8_t channel)

Function for setting the subscribe configuration for a given POWER task.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
task – [in] Task for which to set the configuration.
channel – [in] Channel through which to subscribe events.

NRF_STATIC_INLINE void nrf_power_subscribe_clear(NRF_POWER_Type *p_reg, nrf_power_task_t task)

Function for clearing the subscribe configuration for a given POWER task.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
task – [in] Task for which to clear the configuration.

NRF_STATIC_INLINE void nrf_power_publish_set(NRF_POWER_Type *p_reg, nrf_power_event_t event, uint8_t channel)

Function for setting the publish configuration for a given POWER event.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event for which to set the configuration.
channel – [in] Channel through which to publish the event.

NRF_STATIC_INLINE void nrf_power_publish_clear(NRF_POWER_Type *p_reg, nrf_power_event_t event)

Function for clearing the publish configuration for a given POWER event.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
event – [in] Event for which to clear the configuration.

NRF_STATIC_INLINE uint32_t nrf_power_resetreas_get(NRF_POWER_Type const *p_reg)

Function for getting the reset reason bitmask.

This function returns the reset reason bitmask. Unless cleared, the RESETREAS register is cumulative. A field is cleared by writing ‘1’ to it (see nrf_power_resetreas_clear). If none of the reset sources is flagged, the chip was reset from the on-chip reset generator, which indicates a power-on-reset or a brown out reset.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Returns:

The mask of reset reasons constructed with nrf_power_resetreas_mask_t.

NRF_STATIC_INLINE void nrf_power_resetreas_clear(NRF_POWER_Type *p_reg, uint32_t mask)

Function for clearing the selected reset reason field.

This function clears the selected reset reason field.

See also

nrf_power_resetreas_get

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] The mask constructed from nrf_power_resetreas_mask_t enumerator values.

NRF_STATIC_INLINE bool nrf_power_powerstatus_get(NRF_POWER_Type const *p_reg)

Function for getting power status of the LTE Modem domain.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

true – The LTE Modem domain is powered on.
false – The LTE Modem domain is powered off.

NRF_STATIC_INLINE uint32_t nrf_power_ramstatus_get(NRF_POWER_Type const *p_reg)

Function for getting the RAMSTATUS register.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Returns:

Value with bits set according to the masks in nrf_power_ramblock_mask_t.

NRF_STATIC_INLINE void nrf_power_pofcon_set(NRF_POWER_Type *p_reg, bool enable, nrf_power_pof_thr_t thr)

Function for setting the power failure comparator configuration.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
enable – [in] True if the power failure comparator is to be enabled, false otherwise.
thr – [in] Voltage threshold value.

NRF_STATIC_INLINE nrf_power_pof_thr_t nrf_power_pofcon_get(NRF_POWER_Type const *p_reg, bool *p_enabled)

Function for getting the power failure comparator configuration.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
p_enabled – [out] Function sets this boolean variable to true if power failure comparator is enabled. The pointer can be NULL if we do not need this information.

Returns:

Threshold setting for power failure comparator.

NRF_STATIC_INLINE void nrf_power_pofcon_vddh_set(NRF_POWER_Type *p_reg, nrf_power_pof_thrvddh_t thr)

Function for setting the VDDH power failure comparator threshold.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
thr – [in] Threshold to be set.

NRF_STATIC_INLINE nrf_power_pof_thrvddh_t nrf_power_pofcon_vddh_get(NRF_POWER_Type const *p_reg)

Function for getting the VDDH power failure comparator threshold.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Returns:

VDDH threshold currently configured.

NRF_STATIC_INLINE void nrf_power_gpregret_set(NRF_POWER_Type *p_reg, uint32_t reg_num, uint32_t val)

Function for setting the general purpose retention register.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
reg_num – [in] General purpose retention register number.
val – [in] Value to be set in the register.

NRF_STATIC_INLINE uint32_t nrf_power_gpregret_get(NRF_POWER_Type const *p_reg, uint32_t reg_num)

Function for getting general purpose retention register.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
reg_num – [in] General purpose retention register number.

Returns:

Value from the register.

NRF_STATIC_INLINE void nrf_power_dcdcen_set(NRF_POWER_Type *p_reg, bool enable)

Enable or disable DCDC converter.

Note

If the device consist of high voltage power input (VDDH), this setting will relate to the converter on low voltage side (1.3 V output).

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
enable – [in] True if DCDC converter is to be enabled, false otherwise.

NRF_STATIC_INLINE bool nrf_power_dcdcen_get(NRF_POWER_Type const *p_reg)

Function for getting the state of the DCDC converter.

Note

If the device consist of high voltage power input (VDDH), this setting will relate to the converter on low voltage side (1.3 V output).

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

true – Converter is enabled.
false – Converter is disabled.

NRF_STATIC_INLINE void nrf_power_rampower_mask_on(NRF_POWER_Type *p_reg, uint8_t block, uint32_t section_mask)

Turn ON sections in the selected RAM block.

This function turns ON several sections in one block and also block retention.

See also

nrf_power_rampower_mask_t

See also

nrf_power_rampower_mask_off

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
block – [in] RAM block index.
section_mask – [in] Mask of the sections created by merging nrf_power_rampower_mask_t flags.

NRF_STATIC_INLINE void nrf_power_rampower_mask_off(NRF_POWER_Type *p_reg, uint8_t block, uint32_t section_mask)

Turn ON sections in the selected RAM block.

This function turns OFF several sections in one block and also block retention.

See also

nrf_power_rampower_mask_t

See also

nrf_power_rampower_mask_off

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
block – [in] RAM block index.
section_mask – [in] Mask of the sections created by merging nrf_power_rampower_mask_t flags.

NRF_STATIC_INLINE uint32_t nrf_power_rampower_mask_get(NRF_POWER_Type const *p_reg, uint8_t block)

Function for getting the ON mask and retention sections in the selected RAM block.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
block – [in] RAM block index.

Returns:

Mask of sections state composed from nrf_power_rampower_mask_t flags.

NRF_STATIC_INLINE void nrf_power_dcdcen_vddh_set(NRF_POWER_Type *p_reg, bool enable)

Function for enabling or disabling the DCDC converter on VDDH.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
enable – [in] True if DCDC converter on VDDH is to be enabled, false otherwise.

NRF_STATIC_INLINE bool nrf_power_dcdcen_vddh_get(NRF_POWER_Type const *p_reg)

Function for getting the state of DCDC converter on VDDH.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

true – Converter is enabled.
false – Converter is disabled.

NRF_STATIC_INLINE nrf_power_mainregstatus_t nrf_power_mainregstatus_get(NRF_POWER_Type const *p_reg)

Function for getting the main supply status.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Returns:

The current main supply status.

NRF_STATIC_INLINE uint32_t nrf_power_usbregstatus_get(NRF_POWER_Type const *p_reg)

Function for getting the whole USBREGSTATUS register.

See also

nrf_power_usbregstatus_vbusdet_get

See also

nrf_power_usbregstatus_outrdy_get

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Returns:

The USBREGSTATUS register value. Use nrf_power_usbregstatus_mask_t values for bit masking.

NRF_STATIC_INLINE bool nrf_power_usbregstatus_vbusdet_get(NRF_POWER_Type const *p_reg)

Function for getting the VBUS input detection status.

USBDETECTED and USBREMOVED events are derived from this information

See also

nrf_power_usbregstatus_get

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

false – VBUS voltage below valid threshold.
true – VBUS voltage above valid threshold.

NRF_STATIC_INLINE bool nrf_power_usbregstatus_outrdy_get(NRF_POWER_Type const *p_reg)

Function for getting the state of the elapsed time for the USB supply output settling.

See also

nrf_power_usbregstatus_get

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

false – USBREG output settling time not elapsed.
true – USBREG output settling time elapsed (same information as USBPWRRDY event).

NRF_STATIC_INLINE bool nrf_power_abb_busy_check(NRF_POWER_Type const *p_reg, uint8_t domain_idx)

Function for checking whether the specified ABB domain is busy.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
domain_idx – [in] Index of ABB domain.

Return values:

true – The ABB is busy with applying the new operating point.
false – The ABB is ready to accept the new operating point.

NRF_STATIC_INLINE void nrf_power_abb_config_set(NRF_POWER_Type *p_reg, uint8_t domain_idx, nrf_power_abb_config_t const *p_config)

Function for setting configuration of the operating point for the specified ABB domain.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
domain_idx – [in] Index of ABB domain.
p_config – [in] Pointer to the structure with configuration to be set.

NRF_STATIC_INLINE void nrf_power_abb_config_get(NRF_POWER_Type const *p_reg, uint8_t domain_idx, nrf_power_abb_config_t *p_config)

Function for getting configuration of the operating point for the specified ABB domain.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
domain_idx – [in] Index of ABB domain.
p_config – [in] Pointer to the structure with configuration to be set.

NRF_STATIC_INLINE void nrf_power_abb_force_lock_set(NRF_POWER_Type *p_reg, uint8_t domain_idx, bool enable)

Function for setting the force lock for the specified ABB domain.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
domain_idx – [in] Index of ABB domain.
enable – [in] True if force lock is to be enabled, false otherwise.

NRF_STATIC_INLINE bool nrf_power_abb_force_lock_check(NRF_POWER_Type const *p_reg, uint8_t domain_idx)

Function for checking if the force lock for the specified ABB domain is enabled.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
domain_idx – [in] Index of ABB domain whose status is checked.

Return values:

true – Force lock is enabled.
false – Force lock is disabled.

NRF_STATIC_INLINE void nrf_power_vreg_enable(NRF_POWER_Type *p_reg, uint32_t mask)

Function for enabling specified voltage regulator.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] Mask of voltage regulators to be enabled. Use nrf_power_vreg_mask_t values for bit masking.

NRF_STATIC_INLINE void nrf_power_vreg_disable(NRF_POWER_Type *p_reg, uint32_t mask)

Function for disabling specified voltage regulator.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] Mask of voltage regulators to be disabled. Use nrf_power_vreg_mask_t values for bit masking.

NRF_STATIC_INLINE uint32_t nrf_power_vreg_enable_check(NRF_POWER_Type const *p_reg, uint32_t mask)

Function for checking if the specified voltage regulator is enabled.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
mask – [in] Mask of voltage regulator to be checked. Use nrf_power_vreg_mask_t values for bit masking.

Returns:

Mask of enabled voltage regulators.

NRF_STATIC_INLINE void nrf_power_ulp_mode_set(NRF_POWER_Type *p_reg, bool enable)

Function for setting the Ultra Low Power (ULP) mode.

Note

Going into ULP mode is allowed only if this mode is enabled - otherwise it is blocked. If the ULV mode is blocked, the ULP mode is also blocked.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
enable – [in] True if ULP mode is to be enabled, false otherwise.

NRF_STATIC_INLINE bool nrf_power_ulp_mode_check(NRF_POWER_Type const *p_reg)

Function for checking if the ULP mode is enabled.

Note

Going into ULP mode is allowed only if this mode is enabled - otherwise it is blocked. If the ULV mode is blocked, the ULP mode is also blocked.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

true – ULP mode is enabled.
false – ULP mode is disabled.

NRF_STATIC_INLINE void nrf_power_ulv_mode_set(NRF_POWER_Type *p_reg, bool enable)

Function for setting the Ultra Low Voltage (ULV) mode.

Note

Going into ULP mode is allowed only if this mode is enabled - otherwise it is blocked. If the ULV mode is blocked, the ULP mode is also blocked.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
enable – [in] True if ULV mode is to be enabled, false otherwise.

NRF_STATIC_INLINE bool nrf_power_ulv_mode_check(NRF_POWER_Type const *p_reg)

Function for checking if the ULV mode is enabled.

Note

Going into ULP mode is allowed only if this mode is enabled - otherwise it is blocked. If the ULV mode is blocked, the ULP mode is also blocked.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

true – ULV mode is enabled.
false – ULV mode is disabled.

NRF_STATIC_INLINE bool nrf_power_sem_status_get(NRF_POWER_Type const *p_reg)

Function for getting the POWER semaphore status.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

true – Semaphore is acquired.
false – Semaphore is released.

NRF_STATIC_INLINE void nrf_power_bils_set(NRF_POWER_Type *p_reg, bool enable)

Function for setting BILS instances.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
enable – [in] True if all configured BILS instances are to be enabled, false otherwise.

NRF_STATIC_INLINE bool nrf_power_bils_check(NRF_POWER_Type const *p_reg)

Function for checking if BILS instances are enabled.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

true – All configured BILS instances are enabled.
false – All BILS instances are disabled.

NRF_STATIC_INLINE void nrf_power_pmic_set(NRF_POWER_Type *p_reg, bool enable)

Function for setting the PMIC interface.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.
enable – [in] True if PMIC interface is to be enabled, false otherwise.

NRF_STATIC_INLINE bool nrf_power_pmic_check(NRF_POWER_Type const *p_reg)

Function for checking if the PMIC interface is enabled.

Parameters:

p_reg – [in] Pointer to the structure of registers of the peripheral.

Return values:

true – PMIC interface is enabled.
false – PMIC interface is disabled.

struct nrf_power_abb_config_t

#include <nrf_power.h>

POWER operating point for ABB domain structure.

Public Members

nrf_power_op_point_t op_point: ABB operating point.

nrf_power_override_value_t override_value

Override value of ABB analog macro powerup signal.

Value is applied only if override_enable is enabled.

bool override_enable: True if the override of ABB analog macro signal is to be applied, false otherwise.